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US8790022B2 - Pluggable data communication module with slider-crank delatch mechanism - Google Patents

Pluggable data communication module with slider-crank delatch mechanism
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US8790022B2
US8790022B2US13/718,785US201213718785AUS8790022B2US 8790022 B2US8790022 B2US 8790022B2US 201213718785 AUS201213718785 AUS 201213718785AUS 8790022 B2US8790022 B2US 8790022B2
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arm structure
crank
module
data communication
module housing
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US13/718,785
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US20140169749A1 (en
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Robert Yi
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Broadcom International Pte Ltd
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Avago Technologies General IP Singapore Pte Ltd
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Assigned to AVAGO TECHNOLOGIES GENERAL IP (SINGAPORE) PTE. LTD.reassignmentAVAGO TECHNOLOGIES GENERAL IP (SINGAPORE) PTE. LTD.TERMINATION AND RELEASE OF SECURITY INTEREST IN PATENT RIGHTS (RELEASES RF 032851-0001)Assignors: DEUTSCHE BANK AG NEW YORK BRANCH, AS COLLATERAL AGENT
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Abstract

A delatch mechanism for disengaging a data communication module from a cage includes an actuator handle and a T-shaped crank connected at a wrist pivot to the handle and connected at a crank pivot to the module housing. The crank pivots to lift a pin out of engagement with the cage when a user pulls on the actuator handle, causing it to slide relative to the housing.

Description

BACKGROUND
In data communication systems, it is often useful to modularize interface electronics and other interface elements in a data communication module. For example, in an optical data communication system, an opto-electronic transceiver module may include a light source such as a laser, and a light detector such as a photodiode, and may also include driver and receiver circuitry associated with the laser and photodiode. To use such an opto-electronic transceiver module, an optical fiber cable is plugged into or otherwise connected to a port in the module. Such a module also includes electrical contacts that can be coupled to an external electronic system.
Another example of a data communication module is an Ethernet transceiver module. To use an Ethernet transceiver module, an Ethernet cable, which may have an electrical rather than an optical connector, is plugged into a port in the module. The module may include signal conditioning electronics. Such a module also includes electrical contacts that can be coupled to an external electronic system.
Some data communication modules are configured to be plugged into a cage or other receptacle. A standard communication module configuration commonly referred to in the art as Small Form Factor Pluggable (SFP) includes an elongated housing having a generally rectangular profile. An SFP module is pluggable into a bay in the front panel of a metallic cage having an array of such bays. In addition to serving as an interface between an array of modules and an external electronic system, the cage provides protection against electromagnetic interference (EMI). The nose end of each module includes a mechanism that latches the module in the cage. The mechanism typically comprises a pin on the module housing and a catch on the cage. As a user pushes or inserts the module into the cage, the pin engages an opening in the catch to latch the module in place in the cage. To release or delatch the module from the cage, the user flips a pivoting bail on the module or otherwise moves a mechanism on the module to cause the pin and the catch to disengage from each other. As the bail or other user-operated mechanism is more directly involved in delatching the module from the cage rather than latching the module in the cage, the mechanism as a whole is typically referred to as a “delatch mechanism.” Prior delatch mechanisms for SFP modules generally fall into two categories: moving catch and moving pin.
A moving-catch delatch mechanism delatches the pin from the catch by flexing the catch away from the pin in response to the downward motion of the bail so that the pin and catch do not interfere with each other when the module is withdrawn from the cage. Moving-catch delatch mechanisms promote manufacturing economy by minimizing the number of parts. However, moving-catch latching mechanisms suffer from dependence upon the resilience or flexibility of the catch.
A moving-pin delatch mechanism delatches the pin from the catch by causing the pin to retract into the module housing in response to the pivoting motion of the bail so that the pin and catch do not interfere with each other when the module is withdrawn from the cage. Moving-pin delatch mechanisms do not depend upon flexibility of the catch and provide low frictional resistance between the pin and catch. However, prior moving-pin delatch mechanisms can be complex, involving a substantial number of moving parts, adversely impacting manufacturing economy.
SUMMARY
Embodiments of the present invention relate to a data communication module that includes a slider-crank-based delatch mechanism. In an exemplary embodiment, a data communication module includes a module housing, module electronics configured to process data communication signals, an actuator handle, and a substantially T-shaped crank. The module housing has an elongated rectangular shape elongated in a direction of a longitudinal axis between a first end and a second end. The first end of the module housing has a module port for receiving a signal cable. The second end of the module housing has electrical contacts. The module electronics provide a processing path for the data communication signals between the module port and the electrical contacts. The actuator handle has a shape elongated in a direction of the longitudinal axis and is slideably disposed with respect to the module housing in the direction of the longitudinal axis. The substantially T-shaped crank has a first arm structure and a second arm structure oriented substantially perpendicularly to the first arm structure. The first arm structure has a first end pivotally connected to the module housing at a crank pivot and a second end having a pin extending therefrom. The second arm structure has a first end fixedly connected to a portion of the first arm structure between the first end of the first arm structure and the second end of the first arm structure. The second arm structure has a second end pivotally connected to the actuator handle at a wrist pivot. The wrist pivot is slideably disposed with respect to the module housing in the direction of the longitudinal axis.
In the exemplary embodiment, a method for delatching the above-described data communication module from a cage includes sliding the actuator handle in the direction of the longitudinal axis from a handle latched position to a handle delatched position. In response to this sliding of the actuator handle, the substantially T-shaped crank pivots on a crank pivot from a crank latched position to a crank delatched position. In response to this pivoting of the crank, the pin retracts toward the module housing from a pin latched position in which the pin engages a portion of the cage to a pin delatched position in which the pin disengages from the portion of the cage. Once delatched in this manner, a user can withdraw or extract the data communication module from the cage.
Other systems, methods, features, and advantages will be or become apparent to one with skill in the art upon examination of the following figures and detailed description. It is intended that all such additional systems, methods, features, and advantages be included within this description, be within the scope of the specification, and be protected by the accompanying claims.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention can be better understood with reference to the following drawings. The components in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the present invention.
FIG. 1 is a perspective view of a data communication module system in accordance with an exemplary embodiment of the invention, showing a data communication module being inserted into a cage.
FIG. 2 is similar toFIG. 1, showing the data communication module fully inserted and latched in the cage.
FIG. 3 is a perspective view of the bottom of the data communication module ofFIGS. 1-2.
FIG. 4 is a block diagram of the processing path for the data communication signals in the data communication module ofFIGS. 1-2.
FIG. 5 is a perspective view of the delatch mechanism of the data communication module ofFIGS. 1-2.
FIG. 6 is a side elevation view of the data communication module and cage ofFIG. 2, showing the actuator handle in a latched position.
FIG. 7 is a side elevation view of the delatch mechanism of the data communication module ofFIG. 6.
FIG. 8 is a side elevation view of the data communication module and cage ofFIG. 2, showing the actuator handle in a delatched position.
FIG. 9 is a side elevation view of the delatch mechanism of the data communication module ofFIG. 8.
DETAILED DESCRIPTION
As illustrated inFIG. 1, in an illustrative or exemplary embodiment of the invention, a datacommunication module system100 comprises adata communication module102 and an electromagnetic interference (EMI)cage104. In the manner described below,data communication module102 can be secured or latched withinEMI cage104 and then released or delatched so that it can be removed fromEMI cage104.
Data communication module102 can include anelongated module housing106 having a generally rectangular cross-sectional shape. A signal cable108 (e.g., optical fiber cable) extends from the rearward end ofmodule housing106.Data communication module102 can be inserted or plugged into a bay ofEMI cage104 by inserting the forward end ofmodule housing106 into the bay opening, as indicated by the arrow inFIG. 1.
As illustrated inFIG. 2, within each bay in EMIcage104 is atongue110.Tongue110 is formed of the same sheet metal as the surrounding portions ofEMI cage104 and is angled or bowed inwardly within the bay to provide a ramp-like surface.Tongue110 has anaperture112.Data communication module102 can be inserted or plugged into a bay until it reaches the fully inserted position shown inFIG. 2. Asdata communication module102 reaches this position, a latch pin114 (FIG. 3) on the underside of data communication module slides overtongue110 and becomes seated withinaperture112. In this position, the engagement betweenlatch pin114 andaperture112 oftongue110 retains or latchesdata communication module102 inEMI cage104.
When fully inserted and latched in a bay ofEMI cage104,data communication module102 can communicate data signals with an external system (not shown), such as a switching system or processing system, viaEMI cage104. As illustrated inFIG. 4, anelectrical contact array116 at the forward end ofmodule housing106 mates with electrical contacts withinEMI cage104 whendata communication module102 is fully inserted in a bay ofEMI cage104. Also disposed withinmodule housing106 aremodule electronics118, such as optical-to-electricalsignal conversion circuitry120 and electrical-to-opticalsignal conversion circuitry122.Module electronics118 provide a signal processing path betweenelectrical contact array116 andsignal cable108. More specifically, optical-to-electricalsignal conversion circuitry120 converts optical signals received via anoptical fiber124 ofsignal cable108 into corresponding electrical signals and provides the electrical signals toelectrical contact array116. Similarly, electrical-to-opticalsignal conversion circuitry122 converts electrical signals received viaelectrical contact array116 into corresponding optical signals and provides the optical signals to anotheroptical fiber126 ofsignal cable108.
The above-described rectangular shape, operation and other characteristics ofdata communication module102 define a type or category of data communication module commonly referred to as Small Form Factor Pluggable (SFP). Variations of the SFP module type are known, such as SFP+, but all such data communication modules having the above-described characteristics are of the family of module types generally referred to as SFP. Although in the exemplary embodiment described hereindata communication module102 is of an SFP type that bidirectionally processes optical signals in the manner of a transceiver, in other embodiments data communication modules can be of any other SFP type or similar type that processes optical or electrical signals or combinations of optical and electrical signals, either bidirectionally in the manner of a transceiver or unidirectionally in the manner of a transmitter or a receiver. As details of the electronic and opto-electronic element assembly withinmodule housing106 that provides such processing are not relevant, the assembly is not described in further detail.
As illustrated inFIGS. 3 and 5, a delatch mechanism127 (FIG. 5) includes anactuator handle128 and a substantially T-shaped linkage or crank130.Crank130 includes a U-shaped first arm structure comprising a pair ofarms132 and134 that meet at across member136.Latch pin114 extends fromcross member136 at this end of the first arm structure. Crank130 further includes a second arm structure comprising another pair ofarms138 and140. It should be understood that the term “crank” or “slider-crank” is used herein for convenience, and the term by itself is not intended to imply any structural or operational characteristics other than those described herein with regard to the exemplary embodiment.
The ends ofarms132 and134 opposite the ends from whichlatch pin114 extends are connected to a crank pin142 (FIG. 5). Crankpin142 is rotatable within corresponding bores (not separately shown) inmodule housing106 to define a crank pivot that pivotally connects the first arm structure tomodule housing106.
The pair ofarms138 and140 defining the second arm structure extend in a direction substantially perpendicular to the pair ofarms132 and134 defining the first arm structure. Note that the mutually perpendicular arrangement of the first and second arm structures defines the “T” shape (seeFIGS. 7 and 9) of the substantially T-shapedcrank130. The pair ofarms138 and140 extend from a portion of the first arm structure between its opposing ends to a wrist pivot defined by a wrist pin146 (FIGS. 7 and 9) rotatable within corresponding bores (not separately shown) inactuator handle128. The wrist pivot thus pivotally connects the second armstructure comprising arms138 and140 toactuator handle128. Note that the (“T”) connection between the pair ofarms132 and134 defining the first arm structure and the pair ofarms138 and140 defining the second arm structure is fixed or rigid.
For reference purposes, it can be noted thatmodule housing106 is elongated in the direction of alongitudinal axis150. Actuator handle128 is also elongated in the direction oflongitudinal axis150. The wrist pivot has anaxis152 that is orthogonal tolongitudinal axis150. Similarly, the crank pivot has anaxis154 that is orthogonal tolongitudinal axis150 and parallel toaxis152. Accordingly, it can also be noted (FIGS. 3 and 5) thatlatch pin114 extends in a direction of another axis156 that is substantially orthogonal tolongitudinal axis150 as well asaxes152 and154.
In the latched position or state illustrated inFIGS. 6-7,latch pin114 is engaged withaperture112 oftongue110. Accordingly, a portion ofdata communication module102 is latched inEMI cage104 and resists removal fromEMI cage104. Areturn spring158 has a portion that abuts and exerts a resilient bias force againstcross member136 of the first arm structure, thereby urginglatch pin114 into engagement withaperture112. Another portion ofreturn spring158 bears against a portion of module housing106 (not shown inFIG. 7 for purposes of clarity).Return spring158 thus biases crank130 with respect tomodule housing106.
As illustrated inFIGS. 8-9, to delatchdata communication module102 from the above-described latched state, a person can exert a pulling force onactuator handle128 in the direction of thearrows160, i.e., in the direction of longitudinal axis150 (FIGS. 3 and 5). In response to the pulling force, actuator handle128 slides in the direction ofarrows160. Accordingly, the wrist pivot (defined bywrist pin146 and corresponding bores in actuator handle128) slides along withactuator handle128, as indicated by thearrows162. The wrist pivot thus slides with respect tomodule housing106. Although the wrist pivot is displaced slightly in another direction as it slides in the direction ofarrows160, the wrist pivot motion is referred to herein as sliding because the motion component in such other direction is insignificant. Actuator handle128 can slide from the “handle latched” position shown inFIGS. 6-7 to a “handle delatched” position shown inFIGS. 8-9.
In response to this sliding action of the wrist pivot, crank130 pivots or rotates on the crank pivot (defined bycrank pin142 and corresponding bores in module housing106). More specifically, the end of the first arm structure of crank130 that is attached to crankpin142 pivots in the direction indicated by thearrow164. Crank130 can pivot from the “crank latched” position shown inFIGS. 6-7 to a “crank delatched” position shown inFIGS. 8-9. Note that as crank130 pivots, it compressesreturn spring158 with respect to the portion ofmodule housing106 against which it bears. In response to this pivoting action ofcrank130,latch pin114 retracts towardhousing106 and thus disengages fromaperture112. Althoughlatch pin114 actually moves in an arcuate manner indicated by thearrow166, it can be appreciated thatlatch pin114 effectively retracts in the nominal direction of axis156 (FIGS. 3 and 5) over the relatively short distance that latchpin114 travels between the “pin latched” position shown inFIGS. 6-7 and the “pin delatched” position shown inFIGS. 8-9. Accordingly, in response to a user slidingactuator hand128 as described above,latch pin114 is lifted or retracted out ofaperture112, thereby delatchingdata communication module102 fromEMI cage104.
Withdata communication module102 delatched fromEMI cage104 as described above, a user can then withdraw or extractdata communication module102 fromEMI cage104 by continuing to pulldata communication module102 in the direction indicated byarrows160 inFIGS. 8-9. Oncedata communication module102 has been delatched fromEMI cage104 and at least slightly withdrawn fromEMI cage104, the user can releaseactuator handle128. That is, the user can cease applying the above-described pulling force to handle128. Absent such a pulling force,return spring158 resiliently expands to exert a spring force against crank130, thereby urging crank130 back to the position or state shown inFIG. 7.
One or more illustrative embodiments of the invention have been described above. However, it is to be understood that the invention is defined by the appended claims and is not limited to the specific embodiments described.

Claims (12)

What is claimed is:
1. A data communication module, comprising:
module electronics configured to process data communication signals;
a module housing, the module housing having an elongated rectangular shape elongated in a direction of a longitudinal axis between a first end and a second end, the first end of the module housing having a module port for receiving a signal cable, the second end of the module housing having electrical contacts, the module electronics providing a processing path for the data communication signals between the module port and the electrical contacts;
an actuator handle having a shape elongated in a direction of the longitudinal axis and slideably disposed with respect to the module housing in the direction of the longitudinal axis; and
a substantially T-shaped crank having a first arm structure and a second arm structure oriented substantially perpendicularly to the first arm structure, the first arm structure having a first end pivotally connected to the module housing at a crank pivot and a second end having a pin extending therefrom, the second arm structure having a first end fixedly connected to a portion of the first arm structure between the first end of the first arm structure and the second end of the first arm structure, the second arm structure having a second end pivotally connected to the actuator handle at a wrist pivot, the wrist pivot slideably disposed with respect to the module housing in the direction of the longitudinal axis.
2. The data communication module ofclaim 1, further comprising a return spring having a first portion fixedly connected to the module housing and a second portion abutting a portion of the T-shaped crank.
3. The data communication module ofclaim 1, wherein the first arm structure is substantially U-shaped with a cross member and two arms, the two arms of the first arm structure are connected to the crank pivot, and the pin extends from the cross member.
4. The data communication module ofclaim 3, wherein the second arm structure comprises two arms, and each of the two arms of the second arm structure is connected to a corresponding one of the two arms of the first arm structure.
5. A data communication module, comprising:
module electronics configured to process data communication signals;
a module housing, the module housing having an elongated rectangular shape elongated in a direction of a longitudinal axis between a first end and a second end, the first end of the module housing having a module port for receiving a signal cable, the second end of the module housing having electrical contacts, the module electronics providing a processing path for the data communication signals between the module port and the electrical contacts;
an actuator handle having a shape elongated in a direction of the longitudinal axis, the actuator handle slideable with respect to the module housing in the direction of the longitudinal axis between a handle latched position and a handle delatched position; and
a substantially T-shaped crank having a first arm structure and a second arm structure oriented substantially perpendicularly to the first arm portion, the first arm structure having a first end pivotally connected to the module housing at a crank pivot and a second end having a pin extending therefrom, the second arm structure having a first end fixedly connected to a portion of the first arm structure between the first end of the first arm structure and the second end of the first arm structure, the second arm structure having a second end pivotally connected to the actuator handle at a wrist pivot, the crank pivot and the wrist pivot pivoting on respective axes oriented orthogonally to the longitudinal axis, the wrist pivot being slideable with respect to the module housing in the direction of the longitudinal axis between a crank latched position and a crank delatched position in response to the actuator handle sliding between the handle latched position and the handle delatched position, the pin being movable in a direction substantially orthogonal to the longitudinal axis and the respective axes of the crank pivot and the wrist pivot between a pin latched position and a pin delatched position in response to the wrist pivot sliding between the crank latched position and the crank delatched position.
6. The data communication module ofclaim 5, further comprising a return spring having a first portion fixedly connected to the module housing and a second portion abutting a portion of the T-shaped crank.
7. The data communication module ofclaim 5, wherein the first arm structure is substantially U-shaped with a cross member and two arms, the two arms of the first arm structure are connected to the crank pivot, and the pin extends from the cross member.
8. The data communication module ofclaim 7, wherein the second arm structure comprises two arms, and each of the two arms of the second arm structure is connected to a corresponding one of the two arms of the first arm structure.
9. A method for delatching a data communication module from a cage, the data communication module comprising module electronics, a module housing elongated in a direction of a longitudinal axis, an actuator handle, and a substantially T-shaped crank, the method comprising:
sliding the actuator handle in the direction of the longitudinal axis from a handle latched position to a handle delatched position, the actuator handle having a shape elongated in the direction of the longitudinal axis; and
the substantially T-shaped crank pivoting on a crank pivot from a crank latched position to a crank delatched position in response to sliding the actuator handle, the T-shaped crank having a first arm structure and a second arm structure substantially perpendicular to the first arm structure, the first arm structure having a first end pivotally connected to the module housing at the crank pivot and a second end having a pin extending therefrom, the second arm structure having a first end fixedly connected to a portion of the first arm structure between the first end of the first arm structure and the second end of the first arm structure, the second arm structure having a second end pivotally connected to the actuator handle at a wrist pivot, the pin retracting toward the module housing from a pin latched position wherein the pin engages a portion of the cage to a pin delatched position wherein the pin disengages from the portion of the cage in response to the substantially T-shaped crank pivoting on the crank pivot.
10. The method ofclaim 9, further comprising:
extracting the data communication module from the cage;
releasing the actuator handle; and
a return spring connected to the module housing and the T-shaped crank resiliently urging the substantially T-shaped crank from the crank delatched position in response to releasing the actuator handle.
11. The method ofclaim 9, wherein the first arm structure is substantially U-shaped with a cross member and two arms, the two arms of the first arm structure are connected to the crank pivot, and the pin extends from the cross member.
12. The method ofclaim 11, wherein the second arm structure comprises two arms, and each of the two arms of the second arm structure is connected to a corresponding one of the two arms of the first arm structure.
US13/718,7852012-12-182012-12-18Pluggable data communication module with slider-crank delatch mechanismExpired - Fee RelatedUS8790022B2 (en)

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US13/718,785US8790022B2 (en)2012-12-182012-12-18Pluggable data communication module with slider-crank delatch mechanism
JP2013259710AJP5827305B2 (en)2012-12-182013-12-17 Pluggable data communication module with slider-crank / latch release mechanism

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